Rainwater Harvesting to Augment Groundwater Levels: A Case Study

Authors

  • Deepesh Machiwal Central Arid Zone Research Institute, Regional Research Station, Kukma, Bhuj – 370 105, Gujarat Author
  • Santosh Ojha NIMS University, Jaipur, Rajasthan Author
  • R.C. Purohit SWE Department, College of Technology and Engineering, MPUAT, Udaipur - 313 001, Rajasthan Author

DOI:

https://doi.org/10.52151/jae2013504.1531

Keywords:

Water harvesting structure, rainfall-water level dynamics, surface water-groundwater interaction, recharge, water table rise

Abstract

A rainwater harvesting structure in Rajsamand district in semi-arid region of Rajasthan was evaluated by rainfallwater level dynamics, surface-ground water interaction and potential/actual groundwater recharge. Daily rainfall and evaporation, water level of the water harvesting structure, weekly groundwater levels of ten wells and pre- and post-monsoon groundwater quality were monitored during 2007-10, and analysed. Results indicated that rainfall had strong influence on the surface water and groundwater levels. Groundwater quality was found to be satisfactory for drinking and irrigation purposes. The potential recharge rate in the area was 1 m.day-1. However, the actual groundwater recharge varied from 4.3 to 30.4 cm (8.3-26.1% of monsoon rainfall). Thus, the study reaffirmed that rainwater harvesting structures have adequate potential in rainwater recharging to augment the groundwater levels in the study area.

Downloads

Download data is not yet available.

References

BIS. 1991. Indian Standard Specification for Drinking Water. IS-10500. Bureau of Indian Standards, New Delhi.

CGWB. 2009. Groundwater Scenario: Rajsamand District, Rajasthan. District Groundwater Brochure, Central Ground Water Board (CGWB), Ministry of water Resources, Govt. of India, Western Region, Jaipur, pp: 20.

Freeze R A; Cherry J A. 1979. Groundwater. Prentice-Hall Inc., Englewood Cliffs, New Jersey, pp: 604.

GWD. 2005. Reappraisal of Ground Water Resources of Rajsamand District as on 31-3-2004. Ground Water Department (GWD), Government of Rajasthan, Udaipur.

Healy R W; Cook P G. 2002. Using groundwater levels to estimate recharge. Hydrol. J., 10, 91-109.

Machiwal D; Nimawat J V; Samar K K. 2011. Evaluation of efficacy of groundwater level monitoring network by graphical and multivariate statistical techniques. J. Agric. Eng., 48(3), 36-43.

Machiwal D; Mishra A; Jha M K; Sharma A; Sisodia S S. 2012. Modeling short-term spatial and temporal variability of groundwater level using geostatistics and GIS. Nat. Resour. Res., 21(1), 117-136.

Machiwal, D; Jha, M K. 2013. Characterizing rainfallgroundwater dynamics in a hard-rock aquifer system using time series, GIS and geostatistical modeling. Hydrol. Processes, DOI: 10.1002/hyp.9816.

Ojha S; Machiwal D; Purohit R C. 2013. Infiltration modeling in submergence area of a water harvesting structure: a case study. Indian J. Soil Conservation, 41(1), 8-13.

Schilling K E. 2009. Investigating local variation in groundwater recharge along a topographic gradient, Walnut Creek, Iowa, USA. Hydrol. J., 17, 397-407.

Singh K P. 2006. Groundwater Modelling in hard rock terrain of Khamnor block of Rajsamand (Rajasthan) district using Remote Sensing and GIS. Unpublished M.E. thesis, M.P.U.A.T., Udaipur, Rajasthan.

Published

2013-12-30

Issue

Section

Regular Issue

How to Cite

Deepesh Machiwal, Santosh Ojha, & R.C. Purohit. (2013). Rainwater Harvesting to Augment Groundwater Levels: A Case Study. Journal of Agricultural Engineering (India), 50(4), 48-57. https://doi.org/10.52151/jae2013504.1531